555W-575W 156 Cells Solar Panel All Black Half Cut MBB PV Module
With 182mm All Black Cells Mono PERC with MBB & Half-cut Technology, Sunpal HiMAX5 156 Cell Series Solar Panel Power Range 555W 560W 565W 570W 575W.
- Dimension2465x1134x35mm
- Weight30.5kg±3%
- FrameSilver anodized aluminum alloy frame
- GlassSingle glass 3.2mm coated tempered glass
- Output Cable4mm2, 300mm in length,length can be customized
- Junction BoxIP68, three diodes
- ModelSP575M-78HB
- Junction BoxIP68, three diodes
- Cell Orientation156 (6x26)
- Packaging30pcs per pallet 540 pcs per 40'ft Container

HiMAX5 Solar Panel
The Sunpal HiMAX5 156 Cell All black product has a larger number of cell main grids, and the lateral current propagation path is reduced by 50%, effectively reducing internal losses, while achieving the highest power output while ensuring component reliability; multiple main grids + high-density packaging Technology, power breakthrough 570 W. The use of high-density packaging technology reduces the spacing between the cells, increases the effective power generation area of the module, and further improves the energy density of the module.
Half-cut cell technology
Sunpal HiMAX5 all black is fully equipped with half-cell technology, which can reduce the Pmax temperature coefficient of the all-black module while increasing the power output of 5-10 W, and can effectively reduce the hot spot effect of the module. Sunpal's upgraded version of high-efficiency welding ribbons, while ensuring the reliability of the welding process between the cells, brings secondary reflection of light and increases power generation by 1.57%.
HiMAX5 solar panel meet certifications:
IEC 61215, IEC 61730, UL 61730
ISO 9001:2008: ISO Quality Management System
ISO 14001: 2004: ISO Environment Management System
OHSAS 18001: 2007 Occupational Health and Safety
HiMAX5 solar panel featureas:
- Positive power tolerance (0~+5W) guaranteed High module conversion efficiency (up to 21.3%)
- Slower power degradation enabled by Low LID Mono PERC technology: first year <2%, 0.55% year 2-25
- Solid PID resistance ensured by solar cell process optimization and careful module BOM selection
- Reduced resistive loss with lower operating current
- Higher energy yield with lower operating temperature
- Reduced hot spot risk with optimized electrical design and lower operating current